RFC 3176 (rfc3176) - Page 2 of 31
InMon Corporation's sFlow: A Method for Monitoring Traffic in Switched and Routed Networks
Alternative Format: Original Text Document
RFC 3176 InMon Corporation's sFlow September 2001
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1. Overview
sFlow is a technology for monitoring traffic in data networks
containing switches and routers. In particular, it defines the
sampling mechanisms implemented in an sFlow Agent for monitoring
traffic, the sFlow MIB for controlling the sFlow Agent, and the
format of sample data used by the sFlow Agent when forwarding data to
a central data collector.
The architecture and sampling techniques used in the sFlow monitoring
system are designed to provide continuous site-wide (and network-
wide) traffic monitoring for high speed switched and routed networks.
The design specifically addresses issues associated with:
o Accurately monitoring network traffic at Gigabit speeds and higher.
o Scaling to manage tens of thousands of agents from a single point.
o Extremely low cost agent implementation.
The sFlow monitoring system consists of an sFlow Agent (embedded in a
switch or router or in a stand alone probe) and a central data
collector, or sFlow Analyzer.
The sFlow Agent uses sampling technology to capture traffic
statistics from the device it is monitoring. sFlow Datagrams are
used to immediately forward the sampled traffic statistics to an
sFlow Analyzer for analysis.
This document describes the sampling mechanisms used by the sFlow
Agent, the SFLOW MIB used by the sFlow Analyzer to control the sFlow
Agent, and the sFlow Datagram Format used by the sFlow Agent to send
traffic data to the sFlow Analyzer.
2. Sampling Mechanisms
The sFlow Agent uses two forms of sampling: statistical packet-based
sampling of switched flows, and time-based sampling of network
interface statistics.
Phaal, et al. Informational
